1
Eric A Swanson, David Huang, James G Fujimoto, Carmen A Puliafito, Charles P Lin, Joel S Schuman: Method and apparatus for optical imaging with means for controlling the longitudinal range of the sample. Massachusetts Institute of Technology, Wolf Greenfield & Sacks, June 14, 1994: US05321501 (787 worldwide citation)

A method and apparatus for performing optical imaging on a sample wherein longitudinal scanning or positioning in the sample is provided by either varying relative optical path lengths for an optical path leading to the sample and to a reference reflector, or by varying an optical characteristic of ...


2
Eric A Swanson, David Huang, James G Fujimoto, Carmen A Puliafito, Charles P Lin, Joseph S Schuman: Method and apparatus for performing optical measurements. Massachusetts Institute of Technology, Wolf Greenfield & Sacks, October 17, 1995: US05459570 (529 worldwide citation)

A method and apparatus for performing various optical measurements is provided utilizing an optical coherence domain refrectometer (OCDR). A short coherence optical radiation source applies optical radiation through like optical paths to a sample and an optical reflector. The optical reflector is mo ...


3
Robert W Knighton, Shuliang Jiao, Giovanni Gregori, Carmen A Puliafito: Enhanced optical coherence tomography for anatomical mapping. University of Miami, Stallman & Pollock, November 27, 2007: US07301644 (90 worldwide citation)

A system, method and apparatus for anatomical mapping utilizing optical coherence tomography. In the present invention, 3-dimensional fundus intensity imagery can be acquired from a scanning of light back-reflected from an eye. The scanning can include spectral domain scanning, as an example. A fund ...


4
Robert W Knighton, Shuliang Jiao, Giovanni Gregori, Carmen A Puliafito: Enhanced optical coherence tomography for anatomical mapping. University of Miami, Stallman & Pollock, March 17, 2009: US07505142 (31 worldwide citation)

A system, method and apparatus for anatomical mapping utilizing optical coherence tomography. In the present invention, 3-dimensional fundus intensity imagery can be acquired from a scanning of light back-reflected from an eye. The scanning can include spectral domain scanning, as an example. A fund ...


5
Robert W Knighton, Shuliang Jiao, Giovanni Gregori, Carmen A Puliafito: Enhanced optical coherence tomography for anatomical mapping. University of Miami, Morrison & Foerster, February 9, 2010: US07659990 (16 worldwide citation)

A system, method and apparatus for anatomical mapping utilizing optical coherence tomography. In the present invention, 3-dimensional fundus intensity imagery can be acquired from a scanning of light back-reflected from an eye. The scanning can include spectral domain scanning, as an example. A fund ...


6
Robert W Knighton, Shuliang Jiao, Giovanni Gregori, Carmen A Puliafito: Enhanced optical coherence tomography for anatomical mapping. University of Miami, Morrison & Foerster, April 12, 2011: US07924429 (13 worldwide citation)

A system, method and apparatus for anatomical mapping utilizing optical coherence tomography. In the present invention, 3-dimensional fundus intensity imagery can be acquired from a scanning of light back-reflected from an eye. The scanning can include spectral domain scanning, as an example. A fund ...


7
Robert W Knighton, Shuliang Jiao, Giovanni Gregori, Carmen A Puliafito: Enhanced optical coherence tomography for anatomical mapping. Carl Zeiss Meditec, Morrison & Foerster, November 27, 2012: US08319974 (10 worldwide citation)

A system, method and apparatus for anatomical mapping utilizing optical coherence tomography. In the present invention, 3-dimensional fundus intensity imagery can be acquired from a scanning of light back-reflected from an eye. The scanning can include spectral domain scanning, as an example. A fund ...


8
James R Swaniger, Roger F Steinert, Carmen A Puliafito: Information display apparatus for ophthalmic slit lamps. American Hospital Supply Corporation, Weissenberger and Peterson, July 1, 1986: US04597649 (5 worldwide citation)

A slit lamp with surgical laser capability includes an x-y table. An optical micrometer, readily retrofittable onto existing slit lamps, is mounted on the x-y table to measure table displacement in the y direction. The measuring electronics are resettable to allow the operator to select any y positi ...


9
Robert W Knighton, Shuliang Jiao, Giovanni Gregori, Carmen A Puliafito: Enhanced optical coherence tomography for anatomical mapping. Stallman & Pollock, March 20, 2008: US20080068560-A1

A system, method and apparatus for anatomical mapping utilizing optical coherence tomography. In the present invention, 3-dimensional fundus intensity imagery can be acquired from a scanning of light back-reflected from an eye. The scanning can include spectral domain scanning, as an example. A fund ...


10
Robert W Knighton, Shuliang Jiao, Giovanni Gregori, Carmen A Puliafito: Enhanced optical coherence tomography for anatomical mapping. Stallman & Pollock, June 8, 2006: US20060119858-A1

A system, method and apparatus for anatomical mapping utilizing optical coherence tomography. In the present invention, 3-dimensional fundus intensity imagery can be acquired from a scanning of light back-reflected from an eye. The scanning can include spectral domain scanning, as an example. A fund ...